KR200390160Y1 - The flag flap apparatus for flag stand - Google Patents

Abstract

The present invention has a flagpole and a gas hoisting means, comprising: an air nozzle arranged in a detonation area of a hoisted group and installed to blow compressed air toward a hoisted group; A compressed air supply pipe that is installed at the center of the flagpole to supply compressed air provided by the compressed air supply to an air nozzle; Provided is an air flap device composed of an air passage installed at the bottom of the pipeline to introduce compressed air into the pipeline. According to this design, it can promote the powerful flutter of the flag without the wind.

Description

Flag flap apparatus for flag stand

This design relates to a fluttering device for a canister.

In the summer of 2002, the 28th Athens Athens Olympic Games ended when the heat of the Korean Peninsula heats up with 7 million red devils. I remember each of the Olympic games that made me sweat. There is a moment when the game is more touching and red than the tension and joy. The moments are the awards ceremony of each event. The moments of the awards, in which all the efforts of the athletes are fruitful, are more inspiring than the tensions of the game and more inspiring than the medals. This joy is shared with all those who watch as our flag (Taegeukgi) is elevated high behind the podium, and all become one with joy.

As I watched these moments of emotion, one thing left me in my heart. At the moment of the award that impressed everyone, the flag was still drooping, and it would have been better if the flag fluttered vigorously.

In addition, competition among countries is getting fierce in the global era of the 21st century. Competition between countries is also represented by competition of national image. Policies are established and budgets are implemented to promote national image. When the hoisted Taegeukga is fluttered and fluttered even when there is no wind, it shows the Korean people's weather standing in the world, and it will encourage hope and courage.

If you look at the type of flag's uplifting, you'll have a flag on the end of the upright flagpole and tie the flag up underneath it so that the air bubble falls down when the wind blows up, and the air bubble is always stretched out by hanging up on the side lifting flagpole. Hoisting form is used.

The idea is to create a flap on the flagpole so that the hoisted flag can show flaps just as it does when there is no wind.

This design proposes a flag flap device for a flagship, which can show that the flag is fluttered, even when the wind is well blown. This design provides a device to blow compressed air by blowing it into the air. This design provides an air flap device for a machine pole that utilizes the flagpole as a compressed air supply pipe. The present invention provides an air flap device for a machine reinforcement unit in which compressed air jet nozzles are arranged on the flagpole of the device that binds the device. This design provides an air flop device for a machine reinforcement comprising a compressed air supply device for providing compressed air to a flagpole. This design provides an air flop device for an air carriage including an on / off valve for opening and closing the compressed air supply.

This invention will be described in detail with reference to the accompanying drawings.

The girders 100 are generally equipped with a flag pole 2 which is built on the base 1, a ferrule 3 at the top of the flagpole, and an elevating means attached to the flagpole to hoist the flag on the flagpole. The flagpole 2 generally uses metal pies having a diameter of 3 to 7 cm and a length of 4 to 7 m. The flagpole 2 is fixed on the base end 1 by various supporting means. Mechanisms that can be seen as a good lifting device is a small pulley 4a installed on the flagpole 2 and the hoisting string 4b is hung on the pulley 4a. To tie up and down the aeration of the machine 100 to the hoisting line (4b) to raise the flag on the flagpole (2) to be fixed.

This design can be applied together to the flagpole or other flagpole including the machine hoisting means. This design will be clarified by the description of the following examples.

This device fluttering device comprises an air nozzle (12) arranged in the detonation region (11) of the machine (100) to be hoisted and installed to blow compressed air toward the hoisted machine; A compressed air supply line 13 installed at the center of the flagpole to supply the compressed air provided from the compressed air supply 21 to the air nozzle 12; An air passage 14 installed in the lower portion of the conduit to introduce compressed air into the conduit; Compressed air supply 21 for supplying compressed air to the conduit 13 through the air passage (14). Compressed air may be supplied from a compressed air supply installed in the base 1 or from another device far from the base.

The nozzles are arranged in a row of 3 to 20 to facilitate the flutter of air, and the cross section of the air passage 14 is greater than the sum of the nozzle cross-sectional area of the air passing through the air passage 14 It is configured to make the air velocity ejected from the nozzle faster than the velocity. When the speed of the air flowing into the air passage is V1, the speed V2 of the air blown out of the nozzle 12 can be set by selecting the cross-sectional area S1 of the air passage 14 and the sum S2 of the nozzle 12 cross-sectional area. It can be expressed by the formula V2 = V1 (S2 / S1). In this design, the speed and amount of air injected from the nozzle to increase the flutter of the machine (100) is correlated according to the size of the machine, but based on the size of 1.5m, In consideration of this, the nozzle 12, the air passage 14 and the compressed air supply 20 may be provided.

One embodiment of a compressed air supply for blowing air out of the nozzle 12 is described. The compressed air supplier 20 includes an electric air compressor 21 driven by commercial power (AC); A drive current switch 22 which opens and closes the air compressor drive current in response to a manual switch signal and a switch signal provided by the compressed air tank; A compressed air tank 23 for storing air provided by the air compressor 23; One safety valve 24 for reducing the excess pressure when an excess air pressure is generated; When the air pressure is set and the air pressure in the compressed air tank is lower than the set pressure, a driving signal is generated. When the air pressure reaches the set pressure, a driving stop signal is generated and an open / close signal generator for providing the generated signal to the driving current switch 22. 25; Compressed air tank 23 is composed of an air valve 26 for opening and closing the compressed air supplied to the compressed air line 13 of the flagpole through the air passage (14).

The compressed air supplier 20 sets the air valve 26 to a closed state, sets the air pressure to the open / close signal generator 25, and supplies a driving current to the air compressor 21 through the switch 22. Air supplied from 21 is stored in the compressed air tank 23. Since the pressure in the tank 23 at the initial startup of the compressor 21 is close to normal pressure, the open / close signal generator 25 supplies the switch-on signal to the switch 22. When the stored compressed air pressure reaches the set pressure, the open / close signal generator 25 supplies the switch-off signal to the switch 22, and the switch 22 shuts off the compressor 21 driving current in response to the signal. If the air pressure in the tank 23 decreases to be below the set pressure, the open / close signal generator 25 supplies the switch-on signal to the switch 22 again, and the switch 22 responds to the drive current to the compressor 21. To feed. The pressure holding function of the compressed air supply maintains the air pressure in the tank in a constant pressure range even when the compressed air is ejected and consumed from the nozzle 12. Compressed air given to the compressed air tank 23 as described above is ejected from the nozzle 12 by opening the air valve 26 to encourage the fluff of the machine (100). At this time, the path of the compressed air is an air valve 26, an air passage 14, a conduit 13 and an air nozzle 12. Since the plurality of nozzles 12 are arranged in a line toward the group in the detonation region where the group 100 is tied, the air blown out of the nozzle 12 forms artificial wind toward the group 100 in the detonation region 11. This artificial wind is to make the flag flutter vigorously while the wind is sleeping.

 4 is another embodiment of the present invention. The compressed air supply may be replaced by a powerful blower 20a installed in the flagpole 2. In this case, the compressed air tank 23, the switch 22 and the air valve 26 can be omitted. In the example of FIG. 4, the blower 20a should be manufactured so as to be installed in the inner space of the flagpole 2. If necessary, the flagpole 2 can be enlarged to match the size of the blower to the blower (20a) installation portion. Alternatively, the blower 20a may be installed as a blower placed outside the flagpole. Even in this case, since the compressed air supplied from the blower 20a is ejected toward the group from the nozzle 12 through the conduit 13, it causes artificial wind, which can cause the flag to flutter even in a room without wind.

As described above, this design can show that the aeration is fluttered like a wind, even when the wind is hoisted, and the air is blown by blowing the compressed air to the aeration, and the flagpole is a pipe for supplying compressed air. The present invention provides a preliminary flapping device that utilizes and arranges compressed air jet nozzles in a flagpole of a detonation zone where the air is bound, and further includes a compressed air supply device for providing compressed air to a flagpole, and for opening and closing the compressed air supply. Provided is an air flap device for an air carriage including an on-off valve.

1 is an embodiment of the present girders to which the present invention is applied

Figure 2 is an enlarged cross-sectional view of the nozzle of the flagpole

3 is a configuration diagram of an embodiment of a compressed air supply

Figure 4 is another embodiment configuration of the present invention

<Description of Major Reference Drawings>

100 is the flag, 1 is the podium, 2 is the flagpole, 3 is the ferrule, 4a is the pulley, 4b is the hoisting line, 11 is the detonation zone, 12 is the air nozzle, 13 is the pipeline, 14 is the air passage, 20 is the compressed air feeder, 21a is blower, 21 is air compressor, 22 is switchgear, 23 is compressed air tank, 24 is safety valve, 25 is on / off signal generator, 26 is air valve

Claims (4)

An apparatus comprising: a flag pole and a group hoisting means, comprising: an air nozzle arranged in a detonation region of a group to be hoisted and installed to blow compressed air toward the hoisted group; A compressed air supply pipe that is installed at the center of the flagpole to supply compressed air provided by the compressed air supply to an air nozzle; Air flap device of the flagship pole consisting of air passages installed at the bottom of the pipe to introduce compressed air into the pipe. The device of claim 1, wherein three to twenty nozzles are arranged in a row, and the cross section of the air passage is equal to or larger than the sum of the nozzle cross sections. The compressor of claim 1, wherein the compressed air supplier includes: an electric air compressor driven by a commercial power source; A driving current switch for opening and closing the air compressor driving current in response to the manual switching switch signal and the switching signal provided from the compressed air tank side; A compressed air tank for storing air provided by the air compressor; One safety valve to reduce the excess pressure in case of excess air pressure; An open / close signal generator for setting an air pressure, generating a drive signal when the air pressure in the compressed air tank is lower than the set pressure, generating a drive stop signal when the air pressure reaches the set pressure, and providing the generated signal to the drive current switch; An air flap device for an air cradle of an air cradle consisting of an air valve for opening and closing the compressed air supplied from a compressed air tank to a compressed air pipe of a flagpole through an air passage. An apparatus comprising: a flag pole and a group hoisting means, comprising: an air nozzle arranged in a detonation region of a group to be hoisted and installed to blow compressed air toward the hoisted group; A compressed air supply passage installed at the center of the flagpole to supply compressed air provided by the blower to the air nozzle; An air passage installed in the lower portion of the pipeline to introduce air into the pipeline; Air flapping device of the air flotation rack consisting of a blower for supplying compressed air to a pipeline.